JP6749085B2 - Lighting equipment - Google Patents

Description

The present invention relates to a lighting device that includes a fixture body and a light source unit attached to the fixture body.

Among illumination devices of the type in which the light source unit is attached to the main body of the fixture, there is an illumination device that uses an attachment spring. This illuminating device is one in which two light source units are successively attached to a long instrument body in the longitudinal direction, and is a fixture at both ends in the longitudinal direction of the instrument body to which the respective light source units are attached. It has a structure including a hook spring and a spring receiving portion (for example, Patent Document 1).

Japanese Patent No. 5667262

However, in the conventional case, when the light source unit is attached to the instrument body, there are two light source units, so that it is necessary to attach each light source unit. Further, when the two light source units are combined into one light source unit, it is difficult to attach the light source unit to the instrument body because of the length.

The present invention is a lighting device including a long light source unit and a long instrument main body, and even when a worker attaches the light source unit to the instrument main body, the light source unit has good attachability and the instrument has good attachability. The purpose is to provide the main body.

The lighting device of the present invention is
A light source unit having a longitudinal shape, the first light source unit side wall portion being a first side wall portion formed along the longitudinal direction of the longitudinal shape, and the light source unit formed along the longitudinal direction of the longitudinal shape. A light source unit having a second light source unit side wall portion that is a second side wall portion;
A long flat plate-shaped flat plate portion, a first instrument body side wall portion that is a first side wall portion that stands up from one edge along the longitudinal direction of the flat plate portion, and a long side direction of the flat plate portion. It is composed of a second instrument body side wall which is a second side wall standing up from the other edge, and the first light source unit side wall and the second light source unit side wall of the light source unit are housed. With an instrument body having a recess,
The first light source unit side wall is
Arranged to face an end of the first instrument body side wall portion in the standing direction of the first instrument body side wall portion,
The second light source unit side wall is
Disposed facing the end of the second instrument body side wall portion in the standing direction,
The first instrument body side wall is
When the upright direction is downward and the direction opposite to the upright direction is up, the upright direction is arranged above the first light source unit side wall part, and the first light source unit side wall part is moved upward. A first movement restricting portion having a first upward movement restricting portion for restricting is provided.

According to the lighting device of the present invention, since the first movement restricting portion having the first upward movement restricting portion is provided, the light source unit can be attached to the original position with respect to the instrument body. For this reason, when the worker attaches the light source unit to the instrument body, the attachability is improved.

FIG. 1 is a perspective view of a lighting device 1001 according to the first embodiment. FIG. 3 is an exploded perspective view of the lighting device 1001 according to the first embodiment. FIG. 3 is a diagram of the first embodiment and is a diagram of the instrument main body 100 viewed from the F direction in FIG. 2. FIG. 3 is an exploded perspective view of the main body unit 110 according to the first embodiment. 1 is a diagram of the first embodiment and is a cross-sectional view taken along line AA of FIG. 1. FIG. 6 is a diagram of the first embodiment in which the instrument body 100 and the light source unit 200 of FIG. 5 are separated. FIG. 3 is an enlarged view of a portion B of FIG. 2 in the first embodiment. FIG. 4 is a diagram of the first embodiment, showing a step of attaching the light source unit 200 to the instrument body 100. FIG. 3 is an exploded perspective view of the light source unit 200 in the first embodiment. FIG. 3 is a diagram of the first embodiment and is a simplified diagram showing an arrangement of a power supply device 220. FIG. 4 is a side view of the mounting spring 130 in the first embodiment. FIG. 3 is a perspective view of a connector 250 in the view of the first embodiment. FIG. 4 is a diagram of the first embodiment and illustrates another connection configuration of the power supply terminal block 121 and the power supply device 220. FIG. 11 is a diagram of the second embodiment showing the arrangement of LEDs of the light source unit 200 of the lighting device 1002. FIG. 11 is a diagram of the second embodiment showing an example of the intervals X1 and X2 between the LEDs. FIG. 11 is a diagram of the third embodiment showing a step of attaching the light source unit 200 to the fixture body 100 in the lighting device 1003. FIG. 16 is a diagram illustrating the process of attaching the light source unit 200 to the fixture body 100 in the lighting device 1004 in the diagram of the fourth embodiment. FIG. 16 is a partially enlarged view showing a holding portion 140 of the instrument body 100 in the diagram of the fourth embodiment. FIG. 16 is a perspective view of the light source unit 200 showing the insertion part 280 in the diagram of the fourth embodiment. FIG. 16 is a perspective view showing a mounting state of the insertion portion 280 to the light source mounting portion 210-3 in the diagram of the fourth embodiment. FIG. 16 is a perspective view of an insertion portion 280 in the diagram of the fourth embodiment. The figure of Embodiment 4, and is a side view of the insertion part 280. FIG. 17 is a cross-sectional view showing the inserted state of the insertion portion 280 corresponding to FIGS. 17A and 17D in the diagram of the fourth embodiment.

Hereinafter, the lighting devices of Embodiments 1 to 4 will be described, but the lighting devices of Embodiments 1 to 4 will be referred to as lighting devices 1001, 1002, 1003 and 1004, respectively.

Embodiment 1.
<Description of structure ***>
The configuration of the lighting device 1001 according to the present embodiment will be described with reference to FIGS. 1 to 13.

<Lighting device 1001>
FIG. 1 is a perspective view of the lighting device 1001. The lighting device 1001 has a longitudinal shape, and the longitudinal direction is the longitudinal direction X and the lateral direction is the lateral direction Y. The instrument main body 100 and the light source unit 200, which will be described later, also have a longitudinal shape, and the longitudinal direction and the lateral direction thereof are also referred to as the longitudinal direction X and the lateral direction Y.
FIG. 2 is an exploded perspective view in which the lighting device 1001 is disassembled into a fixture body 100 and a light source unit 200. As shown in FIG. 2, the lighting device 1001 includes a fixture main body 100 and a light source unit 200 attached to the fixture main body 100.

<apparatus body 100>
FIG. 3 is a view of the instrument body 100 as seen from the F direction in FIG. As shown in FIG. 3, the instrument main body 100 includes a main body 110, a power wire attachment portion 120 attached to the main body 110, and three attachment springs 130 for attaching the light source unit 200 to the instrument main body 100.

<Main body 110>
FIG. 4 shows an exploded perspective view of the main body 110. The main body 110 includes a concave portion 111 formed in a long concave shape, inclined portions 112-1 and 112-2 formed on both side surfaces of the concave portion 111 in the lateral direction Y, and both end portions in the longitudinal direction X. Two end plate parts 118-1 and 118-2 to be attached are provided.

5 is a cross-sectional view taken along the line AA of FIG. 1, and FIG. 3 shows the position of the AA cross section. As shown in FIG. 3, the AA cross section is a position where the movement restricting portion 113 described later is not cut.
FIG. 6 shows a state in which the instrument main body 100 and the light source unit 200 in FIG. 5 are separated.

As shown in FIGS. 4 and 5, the concave portion 111 stands in the standing direction D from the flat plate portion 111-3 in the form of a long plate and one edge along the longitudinal direction X of the flat plate portion 111-3. It is composed of a first device body side wall part 111-1 and a second device body side wall part 111-2 standing upright in the standing direction D from the other edge along the longitudinal direction X of the flat plate part 111-3. As shown in FIG. 5, the recess 111 accommodates a first light source unit side wall 201 and a second light source unit side wall 202 (see FIG. 6B) of the light source unit 200, which will be described later.

<Movement restriction section 113>
The recess 111 includes a plurality of first movement restricting portions 113-1 and a plurality of second movement restricting portions 113-2. If there is no need to distinguish between them, they will be referred to as the movement restriction unit 113. The plurality of movement restricting portions 113 included in the first instrument main body side wall portion 111-1 are referred to as a first movement restricting portion 113-1, and the plurality of movement restricting portions 113 included in the second instrument main body side wall portion 111-2 are included. , And the second movement restriction unit 113-2. In this embodiment, as shown in FIG. 3, there are four first movement restricting portions 113-1 and four second movement restricting portions 113-2. It should be noted that at least one movement restriction unit 113 is enough. That is, it is sufficient that one movement restricting portion 113 is formed on the first instrument body side wall portion 111-1 or one movement regulating portion 113 is formed on the second instrument body side wall portion 111-2.
FIG. 7 is a view showing the shape of the movement restricting portion 113, and is an enlarged view of the B portion in FIG. FIG. 7 shows the second movement restricting unit 113-2. As shown in FIG. 7, the second movement restricting portion 113-2 is formed by being cut and raised from the second instrument body side wall portion 111-2 and bent into a U shape. Although not shown, the first movement restricting portion 113-1 is also formed by being cut and raised from the first instrument body side wall portion 111-1 and bent into a U shape.

<Recess 111>
The movement restricting unit 113 will be described in detail with reference to FIGS. The first movement restricting unit 113-1 will be described below, but the same applies to the second movement restricting unit 111-2. The first movement restricting portion 113-1 includes a first upward movement restricting portion 113a-1 and a first lateral movement restricting portion 113b-1. Further, the first lateral movement restricting portion 113b-1 has a first latch portion 114-1. As shown in FIG. 5, the first upward movement restricting portion 113a-1 is lower than the first light source unit side wall portion 201 when the upright direction D is downward and the direction opposite to the upright direction D is up. The first light source unit side wall portion 201 is arranged above and regulates the upward movement of the first light source unit side wall portion 201. Further, as shown in FIG. 5, when the lateral direction Y of the light source unit 200 is set to the lateral direction E, the first lateral movement restricting portion 113b-1 has the first lateral movement restricting portion 113b-1. The movement in the lateral direction E from the instrument body side wall portion 111-1 to the second instrument body side wall portion 111-2 is restricted. As shown in FIG. 6A, the tip portion of the first lateral movement restricting portion 113b-1 is bent into a dogleg shape to form a first latch portion 114-1. The first latch portion 114-1 is bent such that the shape of the cross section with the longitudinal direction X as the normal direction is a mountain shape with the top facing the first instrument body side wall portion 111-1. There is. A more detailed description of the latch section will be given later.

<Power wire attachment part 120>
As shown in FIG. 3, the power supply wire attachment part 120 is attached to the power supply terminal block 121 into which the electric wire drawn from the outside is inserted, the electric wire 123 drawn from the power supply terminal block 121, and the tip of the electric wire 123. Connector 122.

<Mounting spring 130>
FIG. 8 shows a step of attaching the light source unit 200 to the instrument body 100. As shown in FIGS. 8 and 3, attachment springs 130 are attached to the instrument body 100 on both sides in the longitudinal direction and at three substantially central positions. .. These mounting springs will be referred to as a first mounting spring 130-1, a second mounting spring 130-2, and a third mounting spring 130-3. When there is no need to distinguish them, they will be referred to as mounting springs 130. The structures of these mounting springs are the same.
FIG. 11 is a side view of the mounting spring 130. As shown in FIG. 5, the width W of the mounting spring 130 is constant.
The mounting spring 130 has a fixed portion 131, an engaging portion 132, and an arc portion 133 having a tip locking portion 133a formed at its end. The fixed portion 131 is fixed to the main body 110. The engaging portion 132 is formed by being bent at an angle of θ1 from the fixed portion 131 and further being bent at an angle of θ2 and θ3. The arc portion 133 is bent from the engaging portion 132 at an angle of θ4 and is formed into an R shape. The front end locking portion 133a is formed by bending the front end of the arc portion 133.

When the direction from the fixed portion 131 to the tip locking portion 133a is defined as the spring longitudinal direction 139, the first attachment spring 130-1 and the third attachment spring 130-3 are arranged in the spring longitudinal direction 139 as shown in FIG. Are arranged so that they face in opposite directions. The spring longitudinal direction 139 of the first mounting spring 130-1 and the third mounting spring 130-3 may face each other. When the spring longitudinal directions 139 of the first mounting spring 130-1 and the third mounting spring 130-3 face in opposite directions or face each other, the spring force of the two mounting springs 130 is shown in FIG. It works in line symmetry with respect to the central axis C at the central position in the longitudinal direction X. In addition, the second attachment spring 130-2 attached to substantially the center of the device body 100 has the spring longitudinal direction 139 attached in the same direction as one of the first attachment spring 130-1 and the third attachment spring 130-3. To be In FIG. 8, the second attachment spring 130-2 has the spring longitudinal direction 139 oriented in the same direction as the third attachment spring 130-3. Therefore, in the second mounting spring 130-2, the spring force acts symmetrically so as to oppose the spring force of the first mounting spring 130-1. In this way, considering the first mounting spring 130-1 as a reference, the first mounting spring 130-1 and the third mounting spring 130-3, and the first mounting spring 130-1 and the second mounting spring 130-1. A pair of 130-2 forms a spring force in a direction opposite to each other.

<Light source unit 200>
FIG. 9 is an exploded perspective view of the light source unit 200. The power supply device 220 and the connector 250 are not shown in FIG. 9. The light source unit 200 includes a mounting portion 210, two power supply devices 220, two LED modules 230, a translucent cover 240, light source lid portions 240-1 and 240-2, and three connecting tools 250. The two power supply devices 220 are attached to the other surface 210-3b of the attachment portion 210. The two LED modules 230 are attached to the one surface 210-3a. The light source lids 240-1 and 240-2 close both ends of the translucent cover 240. The three connectors 250 are connected to the corresponding mounting springs 130. When distinguishing the two power supply devices 220 and the like, they are referred to as the first power supply device 220-1 and the like.

<Mounting part 210>
The mounting portion 210 is formed by being bent in a U-shape. As shown in FIGS. 6 and 9, the mounting part 210 has a light source mounting part 210-3, a first mounting side wall part 210-1, and a second mounting side wall part 210-2. The light source mounting portion 210-3 has a long and flat plate shape. The first mounting side wall portion 210-1 stands up from one edge along the longitudinal direction X of the light source mounting portion 210-3. The second mounting side wall portion 210-2 stands up from the other edge along the longitudinal direction X of the light source mounting portion 210-3. At the end portions of the first mounting side wall portion 210-1 and the second mounting side wall portion 210-2, a first curl portion 210-1a and a second curl portion 210- which are bent into a curl shape by curling. 2a is formed.

<Power supply device 220>
As shown in FIG. 8, the two elongated power supply devices 220 are attached to the other surface 210-3b of the light source attachment portion 210-3. FIG. 10 shows the arrangement of the first power supply device 220-1 and the second power supply device 220-2 when viewed from the G direction in FIG. The first power supply device 220-1 is attached to the other surface 210-3b of the light source mounting portion 210-3 along the longitudinal direction X of the light source mounting portion 210-3, and is the first light source portion 82301. Power is supplied to the first light source module 230-1. The second power supply device 220-2 is arranged in line with the first power supply device 220-1 on the other surface 210-3b of the light source mounting part 210-3 along the longitudinal direction X of the light source mounting part 210-3. Then, power is supplied to the second LED module 230-2 that is the second light source unit 8230-2.

<LED module 230>
As shown in FIG. 9, each of the first LED module 230-1 and the second LED module 230-2 has a plurality of LEDs 231 and a substrate 232 on which the plurality of LEDs 231 are mounted.

The first LED module 230-1 has a longitudinal shape and is attached to one surface 210-3a of the light source mounting portion 210-3 along the longitudinal direction X of the light source mounting portion 210-3. The second LED module 230-2 has a longitudinal shape, and the one surface 210-3a is provided with the longitudinal direction of the light source mounting portion 210-3 so as to be arranged in a line with respect to the first LED module 230-1. Mounted along the direction X.

FIG. 8C schematically shows the wiring relationship of the power supply lines. The connector 122 of the power supply terminal block 121 is connected to the connector 222 connected to the electric wire 223 drawn from the second power supply device 220-2. The first power supply device 220-1 is connected to the second power supply device 220-2 by the electric wire 310, and receives power supply from the power supply terminal block 121 via the second power supply device 220-2. As shown in FIG. 9, notches 210L and 210R are formed at both ends of the light source mounting portion 210-3 in the longitudinal direction X. The connection between the LED module 230 and the power supply device 220 is performed via each end portion of the attachment portion 210 in the longitudinal direction. As shown in FIG. 8C and FIG. 10, the electric wire 311 drawn from the first power supply device 220-1 is a notch 210L formed at the left end of the light source mounting portion 210-3 in the longitudinal direction X. It is folded back in a U-shape 311L and connected to the first LED module 230-1. Similarly, the electric wire 312 drawn out from the second power supply device 220-2 is folded back into a U-shaped 312R at the notch 210R at the right end portion of the light source mounting portion 210-3 in the longitudinal direction X, and is returned to the second shape. It is connected to the LED module 230-2.

By folding back the U-shaped 311L and the U-shaped 312R in this manner, it is not necessary to provide a hole for wiring in the central portion of the light source mounting portion 210-3 in the longitudinal direction X, and a light source is provided compared to the case where the hole is provided. The LED light reflection area can be increased by the mounting portion 210-3 and the substrate 232.
In addition, since the electric wire 311 and the electric wire 312 are folded back in the U-shape 311L and the U-shape 312R, the light source lid portions 240-1 and 240-2 can be used together to hold down the electric wire 311 and the electric wire 312. The parts can hold the electric wires 311 and 312.

<Translucent cover 240>
As shown in FIG. 6, the translucent cover 240 includes a cover body 241, a first cover side wall 242-1, a second cover side wall 242-2, a first support 243-1, and a second support side 243-1. The support part 243-2 is provided.
(1) The cover body 241 is formed between the one edge 241-1 and the other edge 241-2, and has a circular arc-shaped cross section with the longitudinal direction X as the normal direction.
(2) The first cover side wall portion 242-1 stands up with one edge 241-1 facing the longitudinal direction X of the cover body 241 as a base end portion. A U-shaped first hooking portion 242-1a is formed at the tip of the first cover side wall portion 242-1.
(3) The second cover side wall portion 242-2 stands up with the other edge 241-2 of the cover body 241 facing the longitudinal direction X as the base end portion. A second hook portion 242-2a bent in a U shape is formed at the tip of the second cover side wall portion 242-2.
(4) The first support portion 243-1 has a plate shape protruding from the middle of the first cover side wall portion 242-1 toward the second cover side wall portion 242-2. At the tip of the first support portion 243-1, a first support convex portion 243-1a that is convex in the standing direction of the first cover side wall portion 242-1 is formed.
(5) The second support portion 243-2 has a plate shape protruding from the middle of the second cover side wall portion 242-2 toward the first cover side wall portion 242-1. A second support convex portion 243-2a is formed at the tip of the second support portion 243-2 so as to be convex in the standing direction of the second cover side wall portion 242-2.

<Attachment of translucent cover 240 to attachment part 210>
The translucent cover 240 is attached to the attachment portion 210 so as to cover the LED module 230. The translucent cover 240 and the mounting portion 210 are mounted as follows. As shown in FIG. 6B, the first hook portion 242-1a is hooked on the first curl portion 210-1a, and the second hook portion 242-2a is hooked on the second curl portion 210-2a. Further, in this state, the first supporting protrusion 243-1a and the second supporting protrusion 243-2a press the one surface 210-3a. That is, the mounting portion 210 is sandwiched between the first hooking portion 242-1a and the second hooking portion 242-2a, and the first supporting convex portion 243-1a and the second supporting convex portion 243-2a. The translucent cover 240 is attached to the attachment portion 210.

<Light source unit side wall>
As shown in FIG. 6B, a part of the first cover side wall portion 242-1 attached to the first mounting side wall portion 210-1 and the first mounting side wall portion 210-1. Constitute the first light source unit side wall 201. Further, a part of the second cover side wall part 242-2 attached to the second mounting side wall part 210-2 and the second mounting side wall part 210-2 are the second light source unit side wall. The part 202 is configured. As shown in FIG. 5, in the lighting device 1001, the first light source unit side wall portion 201 has an end portion of the first equipment body side wall portion 111-1 in the upright direction D of the first equipment body side wall portion 111-1. Is placed opposite to. Further, the second light source unit side wall portion 202 is arranged so as to face the end portion of the second instrument body side wall portion 111-2 in the standing direction D.

<Latch shape>
As shown in FIG. 5, in the first light source unit side wall 201, the width W2 of the upward end 201U in the lateral direction E is the lateral width W1 of the portion 201L below the upward end 201U. Greater than. The first lateral movement restricting portion 113b-1 is opposed to the first instrument body side wall portion 111-1 with the first light source unit side wall portion 201 sandwiched between the first light source unit side wall portion 201 and the first instrument body side wall portion 111-1. It has a plate shape. The first lateral movement restricting portion 113b-1 is formed from above the first light source unit side wall 201 to a position below the upper end 201U of the first light source unit side wall 201. .. In the first latch portion 114-1, the latch portion inner surface 115-1 facing the first instrument body side wall portion 111-1 at a position lower than the upper end portion 201U of the first light source unit side wall portion 201. The dimension in the lateral direction between (FIG. 6) and the inner surface 111-1a (FIG. 6) of the first instrument body side wall portion 111-1 is referred to as dimension B1. As shown in FIG. 5, the dimension B1 is smaller than the dimension of the width W2 of the first light source unit side wall portion 201 in the upper end portion 201U in the horizontal direction.

More specifically, the first latch section 114-1 is as follows. The first light source unit side wall portion 201 has a maximum width W2 in which the width dimension in the lateral direction becomes maximum from the bottom to the top. The first lateral movement restricting portion 113b-1 sandwiches the first light source unit side wall portion 201 between the first light source unit side wall portion 111-1 and the first instrument main body side wall portion 111-1. It has a plate shape facing. The first lateral movement restricting portion 113b-1 is formed from a position above the first light source unit side wall portion 201 to a position lower than the position of the maximum width W2 of the first light source unit side wall portion 201. To be done. The first latch portion 114-1 of the first lateral movement restricting portion 113b-1 and the inner surface 115-1 facing the first instrument body side wall portion 111-1 at a position lower than the maximum width W2 and the first latch portion 114-1. The minimum dimension B1 in the lateral direction E with the inner surface 111-1a of the instrument body side wall portion 111-1 is smaller than the maximum width W2.

The relationship between the second movement restricting section 113-2 and the second light source unit side wall section 202 is the same as the relationship between the first movement restricting section 113-1 and the first light source unit side wall section 201. Is omitted. Note that FIG. 5 shows the second light source unit side wall portion 202, the upward end portion 202U, and a portion 202L below the upward end portion 202U.

<Connector 250>
The light source unit 200 is provided with three connectors 250. These have the same configuration. These are referred to as a first connector 250-1, a second connector 250-2, and a third connector 250-3. The first connecting tool 250-1 to the third connecting tool 250-3 correspond to the first mounting spring 130-1 to the third mounting spring 130-3, respectively.
FIG. 12 is a perspective view of the connector 250. The connecting tool 250 includes a fixing portion 251 fixed to the other surface 210-3b of the mounting portion 210, a rising portion 253 having an opening 252 into which the mounting spring 130 is inserted, and a diagonal portion bent from the rising portion 253. And a contact portion 254 formed by being formed. The connector 250 is fixed to the mounting-side fixing portion 210c formed on the light source mounting portion 210-3 with the screw 210d.

<Installation process>
Next, with reference to FIG. 8, a process of attaching the light source unit 200 to the instrument body 100 will be described.

(Fig. 8(a))
First, the apparatus main body 100 is attached to a member to be attached such as a ceiling, the power supply wire drawn from the outside is inserted into the power supply terminal block 121, and the power supply wire is physically and electrically connected to the power supply terminal block 121.

(Fig. 8(b))
Next, the first attachment spring 130-1 of the instrument body 100 is pulled down and inserted into the opening 252 of the first connector 250-1. After that, the second mounting spring 130-2 at the center is pulled down, and the second mounting spring 130-2 is inserted into the opening 252 of the second connector 250-2 provided at substantially the center of the light source unit 200. At this time, the operator inserts the tips of the first attachment spring 130-1 and the second attachment spring 130-2 inserted into the openings 252 of the first connection tool 250-1 and the second connection tool 250-2, respectively. The locking portion 133a is hooked on the edge 252a of the opening 252. Accordingly, the light source unit 200 can be temporarily fixed to the instrument body 100. Further, the worker engages the engaging portion 132 of the first attachment spring 130-1 so as to contact the contact portion 254, and the first attachment spring 130-1 is attached to the first connector 250-1. The second attachment spring 130-2 is hooked at the edge 252a of the opening 252 of the second connector 250-2. This state is shown in FIG. As shown in FIG. 8B, the light source unit 200 is obliquely attached to the instrument body 100 at an acute angle θ.

Therefore, on the side of the third connector 250-3 of the light source unit 200, the light source unit 200 and the instrument body 100 are separated from each other. Therefore, it is possible to secure a wide working space for connecting the connector 222 of the electric wire 223 drawn from the second power supply device 200-2 and the connector 122 of the electric wire 123 drawn from the power terminal block 121. Therefore, it is easy to connect the connector 122 and the connector 222, and the workability is improved.

(Fig. 8(c))
When the connection between the connector 122 and the connector 222 is completed, the operator inserts the third attachment spring 130-3 into the opening 252 of the third connector 250-3, and the tip locking portion of each attachment spring 130. The edge 133a is hooked on the edge 252a of each opening 252, and the state shown in FIG. Then, the worker pushes up the light source unit 200 in the direction of the instrument body 100 to attach the light source unit 200 to the instrument body 100.

(Fig. 8(d))
In the state of FIG. 8D, the engaging portions 132 of the three attachment springs 130 abut on and engage with the abutting portions 254 of the corresponding coupling tools 250. In the state of FIG. 8D, as shown in FIG. 5, the light source unit 200 is pulled upward by the three mounting springs 130, which is the side of the instrument body 100. In that case, the first light source unit side wall portion 201 and the second light source unit side wall portion 202 contact the first upward movement restricting portion 113a-1 and the second upward movement restricting portion 113a-2, and Movement in the direction is restricted.

<Explanation of the effect ***>
In the case of the conventional lighting device, when the light source unit is attached to the instrument body, there is a risk that the light source unit may enter further into the accommodation space of the instrument body depending on the shape of the light source unit. On the other hand, according to the lighting device 1001, since the movement restricting portion having the upward movement restricting portion is provided, it is possible to prevent the light source unit 200 from excessively entering the concave portion 111 of the main body 110, and thus the light source unit. The 200 can be mounted in place. Therefore, the mountability is improved when the worker mounts the light source unit on the instrument body.

Further, since the movement restricting portion 113 includes the movement restricting portion having the lateral movement restricting portion, the lateral movement restricting portion is positioned in the lateral direction when the worker attaches the light source unit to the instrument body. Therefore, when the worker attaches the light source unit to the instrument body, the attachability is improved.

Further, when the first light source unit side wall 201 comes into contact with the first upward movement restricting part 113a-1, the first latch part 114-1 moves upward in the first light source unit side wall 201. The lower part than the end portion 201U is sandwiched between the inner surface 111-1a of the first instrument body side surface portion 111-1. Similarly, when the second light source unit side wall section 202 abuts on the second upward movement restricting section 113a-2, the second latch section 114-2 moves above the second light source unit side wall section 202. The lower side of the end portion 202U in the direction is sandwiched between the inner surface 111-2a of the second instrument body side surface portion 111-2. Therefore, even when the light source unit 200 is bent due to its own weight, the first latch portion 114-1 and the second latch portion 114-2 have the upper end portion 201U of the first light source unit side wall portion 201. The bending of the light source unit 200 can be corrected by sandwiching the upper end portion 202U of the second light source unit side wall portion 202. That is, in FIG. 5, when the position of the maximum width W2 of the first light source unit side wall portion 201 is going to go below the position of the minimum width B1 of the first latch portion 114-1, W2>B1. Therefore, the first latch portion 114-1 suppresses the location of the maximum width W2 from moving downward. The same applies to the second latch section 114-2. In this way, the latch portion 114 can suppress the downward movement of the light source unit 200 due to its own weight.

In addition, when the light source unit 200 is detached from the instrument body 100 or attached to the instrument body 100, the upward end portion 201U of the first light source unit side wall portion 201 and the upward direction end portion of the second light source unit side wall portion 202. The portion of the maximum width W2 of the portion 202U passes through the portion of the minimum width B1 of each latch portion 114. At this time, since each latch portion 114 is elastically deformed in the lateral direction E depending on the position of the maximum width W2, there is an appropriate wearing feeling, and the worker can recognize the attachment/detachment state of the light source unit 200.

In the first embodiment, as shown in FIG. 8C, the power supply terminal block 121 arranged in the instrument body 100 and the second power supply device 220-2 are connected by the connectors 122 and 222, and the first power supply is used. The device 220-1 was configured to receive power supply from the power supply terminal block 121 via the second power supply device 220-2. In addition to this configuration, the configuration shown in FIG. 13 may be used.
FIGS. 13A and 13B correspond to FIGS. 8C and 8D, respectively. As shown in FIG. 13A, the light source unit 200 includes a power supply terminal block 261 arranged on the other surface 210-3b of the mounting portion 210. The power supply terminal block 261 has an electric wire 263 to which the connector 262 is attached. The connector 262 is connected to the connector 122 of the power terminal block 121. The first power supply device 220-1 is connected to the power supply terminal block 261 by the electric wire 264, and the second power supply device 220-2 is connected to the power supply terminal block 261 by the electric wire 265. Therefore, the first power supply device 220-1 and the second power supply device 220-2 are supplied with power from the power supply terminal block 121 via the power supply terminal block 261. By thus providing the power supply terminal block 261 also on the light source unit 200 side, it is possible to independently supply power to each power supply device, so that it is possible to easily cope with the case where the number of power supply devices needs to be changed.
As shown in FIG. 13A, the power supply terminal block 121 and the power supply terminal block 261 are displaced in the longitudinal direction X. Therefore, as shown in FIG. 13B, when the light source unit 200 is attached to the instrument body 100, it is possible to prevent interference between the power supply terminal block 121 and the power supply terminal block 261 in the vertical direction Z.

In the first embodiment, the two power supply devices 220 are described as being arranged in the light source unit 200. However, the two power supply devices 220 may be arranged in the instrument body 100.

Embodiment 2.
Illumination device 1002 (not shown) of the second embodiment will be described with reference to FIGS. 14 and 15. In the second embodiment, points different from the first embodiment will be described. The illumination device 1002 of the second embodiment has a configuration in which the LED 231 in the light source unit 200 is arranged with respect to the illumination device 1001.

FIG. 14 is a diagram showing the arrangement of the LEDs 231 and shows the arrangement of the LEDs 231 when viewed from the F direction in FIG. In the first LED module 230-1, a plurality of LEDs 231 are linearly arranged on a longitudinal substrate 232 along the longitudinal direction X of the substrate 232 at equal intervals X1. Similarly, in the second LED module 230-2, a plurality of LEDs 231 are arranged on the elongated substrate 232 along the longitudinal direction X of the substrate 232, and the distance X1 between the LEDs 231 arranged in the first LED module 230-1. Are arranged linearly at the same interval X1. The plurality of LEDs 231 arranged in the first LED module 230-1 are arranged in a row together with the plurality of LEDs 231 arranged in the second LED module 230-2. In FIG. 14, only the four LEDs 231 are provided with the interval X1, but the other LEDs 231 arranged on the same substrate 232 are also provided with the interval X1. The distance between the rightmost LED 231-1 of the first LED module 230-1 and the leftmost LED 231-2 of the second LED module 230-2 is the distance X2. In FIG. 14, a region 215 exists as a gap between the first LED module 230-1 and the second LED module 230-2, and one surface 210-3a of the light source mounting portion 210-3 is present. Has appeared. The region 215 prevents the LED modules 230 from extending in the longitudinal direction X and interfering with each other due to thermal expansion.

The LED 231-1 is closest to the second LED module 230-2 of the plurality of LEDs 231 of the first LED module 230-1, and the LED 231-2 is the first of the plurality of LEDs 231 of the second LED module 230-2. Is the closest to the LED module 230-1. An interval X2 between the LED 231-1 and the LED 231-2 is in a range of 0.5 times or more and 2 times or less of the interval X1.
In other words, if you express it with an expression,
0.5X1≦X2≦2X1
Relationship.

The reflectance of the region 215, that is, the reflectance of the one surface 210-3a appearing in the region 215 is higher than the reflectance of each substrate 232 of the first LED module 230-1 and the second LED module 230-2. If low,
That is,
When the reflectance of the region 215<the reflectance of the substrate 232, the interval X2 is set shorter than the interval X1. Thereby, continuity of light can be enhanced. On the other hand, when the reflection of the one surface 210-3a in the region 215 is higher than the reflectance of each substrate 232 of the LED module 230,
That is,
When the reflectance of the region 215>the reflectance of the substrate 232, the continuity of light can be made substantially constant even if the interval X2 is made longer than the interval X1.

<Interval X1, interval X2>
In FIG. 14, the distance X1 between the LEDs 231 and the distance X2 are distances between the central positions of the light emitting surfaces of the adjacent LEDs 231 in the longitudinal direction X of the light source mounting portion 210-3. In addition, as shown in FIG. 15A, a reference location is determined in each LED 231, and the LEDs are arranged such that the reference locations are spaced at intervals X1 and X2 in the longitudinal direction X. Good. In FIG. 15A, the left side surface of the LED 231 is set as the reference point. Further, as shown in FIG. 15(b), reference points may be determined and marked, and the LEDs may be arranged so that the mark intervals in the longitudinal direction are the intervals X1 and X2. The method of determining the intervals X1 and X2 is not limited to the above example as long as the continuity of light can be made substantially constant.

In the second embodiment, the two power supply devices 220 are attached to the light source unit 200. That is, in the second embodiment, the two elongated power supply devices 220 shown in FIG. 10 are attached to the other surface 210-3b of the light source attachment portion 210-3. Then, as shown in FIG. 10, the first power supply device 220-1 is attached to the other surface 210-3b along the longitudinal direction X of the light source attachment portion 210-3 so that power is supplied to the first light source module 230-1. To supply. The second power supply device 220-2 is a second light source unit 8230-2, which is arranged in a line with the first power supply device 220-1 along the longitudinal direction X of the light source mounting portion 210-3. Power is supplied to the second LED module 230-2. Also, as shown in FIG. 14, the first LED module 230-1 and the second LED module 230-2 have connectors 311-1 and 312-1, respectively. The first LED module 230-1 is supplied with power from the first power supply device 220-1 via the connector 311-1, and the second LED module 230-2 is supplied with power from the first power supply device 220-1 via the connector 312-1. Power is supplied from 220-2.

In the light source unit 200 according to the second embodiment, the first power supply device 220-1 and the second power supply device 220-2 are arranged in a line on the other surface 210-3b. Therefore, since the weight of the light source unit 200 is well balanced, the mountability when the worker mounts the light source unit 200 on the instrument body 100 is improved.

In the light source unit 200 according to the second embodiment, since the LEDs are arranged in the two LED modules 230 at equal intervals X1, there is an effect that the weight balance is good.

In the light source unit 200 according to the second embodiment, the distance X2 is set to be 0.5 times or more and twice the distance X1. Therefore, light is emitted according to the reflectance of the substrate 232 and the one surface 210-3a. The continuity of can be secured.

Embodiment 3.
The illumination device 1003 according to the third embodiment will be described with reference to FIGS. 16 and 11. In the third embodiment, points different from the first and second embodiments will be described. The feature of the third embodiment is that the length L(2) of a beam portion 135, which will be described later, in the spring longitudinal direction 139 of the second mounting spring 130-2 arranged in the instrument body 100 is different from the other two mounting springs 130. Is longer than. Thereby, the work space shown by the broken line 313 in FIG. 16B can be secured wider than in the first embodiment.

FIG. 16 is a diagram showing a step of attaching the light source unit 200 to the instrument main body 100 in the third embodiment and corresponds to FIG. 8. Note that in FIG. 16, only one power supply device is shown, which is a power supply device 220.
In FIG.
(A) shows before attaching the light source unit 200 to the instrument main body 100.
FIG. 6B is a diagram showing a state where the light source unit 200 is being attached to the instrument body 100, and a connection operation between the connector 122 and the connector 222.
(C) shows just before raising the light source unit 200 toward the instrument main body 100.
(D) shows a state in which the light source unit 200 is attached to the instrument body 100.

The lighting device 1003 of the third embodiment is different from the lighting device 1001 of the first embodiment in that the length of the beam portion 135 in the spring longitudinal direction 139 of the second mounting spring 130-2 is the same as that of the first mounting spring 130. -1, longer than the beam portion 135 of the third mounting spring 130-3.

The elongated instrument body 100 includes three attachment springs 130 that are long leaf springs. In the third embodiment, the longitudinal direction X is also referred to as the longitudinal direction X. The three attachment springs 130 are arranged along the longitudinal direction X of the instrument body 100, and one end portion, the other end portion, and one end portion and the other end portion on the left side of the instrument body 100 in the longitudinal direction X. The spring longitudinal direction 139 is arranged in the instrument main body 100 in the longitudinal direction X in each of the portions sandwiched between.

As shown in FIG. 11, the three mounting springs 130 have a fixing portion 131 and a beam portion 135. The fixing portion 131 is formed at one end of the spring longitudinal direction 139 and is fixed to the instrument body 100. The beam portion 135 is integrally formed with the fixed portion 131 and functions as a cantilever beam. The beam portion 135 has a tip locking portion 133a, which is a bent portion 8133a having a bent shape, at the end portion that is the end of the spring longitudinal direction 139. The beam portion 135 is composed of an engaging portion 132 and an arc portion 133 having an end locking portion 133a formed at an end thereof, and has an arc shape.

As shown in FIG. 16A, the second mounting spring 130-2 disposed between the two mounting springs, which are the first mounting spring 130-1 and the third mounting spring 130-3, is A feature of the present embodiment is that the beam length L(2) in the spring longitudinal direction 139 is longer than the two mounting springs. That is, the beam lengths of the first mounting spring 130-1, the second mounting spring 130-2, and the third mounting spring 130-3 are set to L(1), L(2), and L(3), respectively. If
L(2)>L(1) and L(2)>L(3)
Is.

Further, as shown in FIG. 16A, the first attachment spring 130-1 and the third attachment spring 130-3 are arranged such that the spring longitudinal direction 139 faces the opposite direction. In FIG. 16A, the spring longitudinal directions 139 of the first mounting spring 130-1 and the third mounting spring 130-3 are facing leftward and rightward, respectively. The spring longitudinal direction 139 of these mounting springs 130 may be a spring arrangement facing the right direction and the left direction, respectively.

The arrangement of the three mounting springs 130 when viewed from the F direction in FIG. 16A is the same as that in FIG. 3, and the three mounting springs 130 are arranged in a line along the longitudinal direction X of the instrument body 100. Are arranged in a straight line or in a straight line.

In FIG. 16D, the three connecting tools 250 are connected to the mounting springs of the three mounting springs in a one-to-one correspondence and are pulled by the spring force. Thereby, the light source unit 200 is attached to the instrument main body 100.

In the third embodiment, the beam length L(2) in the spring longitudinal direction 139 is made longer than the beam lengths L(1) and L(3) of the other two mounting springs 130. Therefore, in FIG. 8B, in the state where the vertical dimension is the length H1, the tip locking portion 133a of the second mounting spring 130-2 is hooked on the edge 252a of the second coupling tool 250-2. However, in FIG. 16B, when the vertical dimension is the length H1, the circular arc portion 133 still remains up to the tip locking portion 133a, and the circular arc portion 133 extends to the length H2. Therefore, as compared with the first embodiment, a wider space for the connector mounting work indicated by the broken line 313 can be secured.

In the state of FIG. 16D in which the light source unit 200 is attached to the instrument body 100, the engaging portions 132 of the first attachment spring 130-1 and the third attachment spring 130-3, and the second attachment spring 130-1 The engaging portions 132 of the mounting springs 130-2 abut on the abutting portions 254 of the corresponding connecting tools 250 to hold the light source unit 200. That is, the connection state of each attachment spring 130 and the corresponding connection tool 250 in FIG. 16D is the same as in FIG. 8D. Therefore, the beam length L(2) of the second mounting spring 130-2 becomes longer than the beam lengths L(1) and L(3) of the other two mounting springs 130, so There is no concern that the holding power of the light source unit 200 will decrease.

According to the instrument main body 100 of the third embodiment, since the mounting spring arranged between the two mounting springs has a longer beam portion length in the longitudinal direction X than the two mounting springs, the two mounting springs. A wide working space can be secured by hooking the bent portion of the mounting spring arranged between the parts and the part of the light source unit. Therefore, the mountability when the worker mounts the light source unit on the instrument body is improved.

In the third embodiment, it is assumed that one power supply device 220 is arranged in the light source unit 200 as in the first embodiment. However, one power supply device 220 may be arranged in the instrument body 100.

Fourth Embodiment
The elongated illumination device 1004 according to the fourth embodiment will be described with reference to FIGS. 17 to 23. In the fourth embodiment, points different from the first to third embodiments will be described. The feature of the fourth embodiment is that, in the light source unit 200, the first mounting spring 130-1 in the first to third embodiments is removed and replaced with an inserting portion 280 described later, and a holding portion 140 having an opening 141 is formed. The insertion portion 280 is inserted into the opening 141. Due to this feature, the operator only has to insert the insertion portion 280 into the opening 141, instead of hooking the first attachment spring 130-1 to the first connector 250-1. Therefore, there is an effect that the work becomes easy.
Further, in the fourth embodiment, each of the connecting tools 250 is characterized by being pushed by the spring force of the corresponding mounting spring 130 in the inserting direction 289 in which the inserting portion 280 is inserted into the opening 141. This feature has the effect of making it difficult for the insertion portion 280 to come off the opening 141.

FIG. 17 is a diagram showing a step of attaching the fixture body 100 to the fixture body 100 in the lighting device 1004, and corresponds to FIG. 8. Note that FIG. 17 shows only one power supply device, which is a power supply device 220.
FIG. 18 is a partially enlarged view showing the holding portion 140 of the instrument body 100.
FIG. 19 is a perspective view of the light source unit 200 showing the insertion portion 280.
FIG. 20 is a perspective view of the light source unit 200 showing the insertion portion 280.
FIG. 21 is a perspective view of the insertion portion 280.
FIG. 22 is a side view of the insertion portion 280.
23A and 23B are diagrams corresponding to FIGS. 17B and 17D, respectively.

In the fourth embodiment, the longitudinal direction X is also referred to as the longitudinal direction X. As shown in FIG. 17A, the instrument main body 100 is arranged at one end in the lengthwise direction and has a holding portion 140 in which an opening 141 is formed, one end, and the other in the lengthwise direction X. And a plurality of mounting springs 130 arranged between the ends of the mounting springs 130 and. Although the lighting device 1004 shown in FIG. 17A shows a case where two mounting springs 130 are arranged as the plurality of mounting springs 130, three or more mounting springs 130 may be arranged. The two mounting springs 130 are referred to as a second mounting spring 130-2 and a third mounting spring 130-3.

The light source unit 200 includes two connecting tools 250 and an insertion portion 280. The connectors 250 corresponding to the second mounting spring 130-2 and the third mounting spring 130-3 are referred to as a second connector 250-2 and a third connector 250-3, respectively. The two connecting tools 250 are connected to the two mounting springs 130 in a one-to-one correspondence and are pulled by a spring force. As shown in FIG. 17D, the insertion portion 280 is inserted into the opening 141 of the holding portion 140 in the insertion direction 289, which is the direction from the other end of the device body 100 to the one end. In this state, it is held by the holding unit 140.

As shown in FIG. 17D, the two connectors 250 are pushed by the spring force in the inserting direction 289. That is, the spring force from the second attachment spring 130-2 and the third attachment spring 130-3 acts on the second connector 250-2 and the third connector 250-3 in the direction 138. .. Therefore, the second connector 250-2 and the third connector 250-3 are pushed by the insertion direction component of the spring force in the direction 138 in the insertion direction 289 by the spring force.

The configurations of the second mounting spring 130-2 and the third mounting spring 130-3 are the same as those described in the third embodiment.

As shown in FIG. 17D, in the fixture body 100 of the lighting device 1004, the two attachment springs 130 have the spring longitudinal direction 139 in the same direction as the insertion direction 289.

The two mounting springs 130 are leaf springs, and the beam portion 135 has an arc shape as in the first to third embodiments. Further, the arrangement of the two mounting springs 130 when viewed from the F direction in FIG. 17A is the same as that of the second mounting spring 130-2 and the third mounting spring 130-3 of FIG. The two mounting springs 130 are arranged in a line along the longitudinal direction X of the instrument body 100.

<Insertion part 280>
The insertion unit 280 will be described with reference to FIGS. The insertion portion 280 is formed by bending a piano wire. The insertion portion 280 includes a mounting portion 281, a rising portion 282, a support portion 283, an insertion end portion 284, and a tip connecting portion 285. The pair of mounting portions 281 are mounted on the light source mounting portion 210-3 of the light source unit 200. The ends of the pair of mounting portions 281 are bent substantially at right angles to form a pair of bending portions 281a. As shown in FIG. 20, the light source mounting portion 210-3 has a pair of bent portions 281a and a pair of first cut and raised portions 210-3-1 cut and raised to attach the pair of mounting portions 281. The second cut and raised portion 210-3-2 is formed. As shown in FIG. 22, the pair of rising portions 282 rises from the respective mounting portions 281 in a direction substantially perpendicular to the normal line of the other surface 210-3b. The pair of support portions 283 are formed by being bent obliquely downward from the respective rising portions 282 toward the other surface 210-3b. The pair of insertion ends 284 are formed by being bent obliquely upward from the respective supporting portions 283 and away from the other surface 210-3b. The tip connection part 285 connects the ends of the respective insertion ends 284. The pair of insertion end portions 284 and the tip connecting portion 285 form a hook sliding portion 286.

<Holder 140>
The holding unit 140 will be described with reference to FIG. 18. The holding portion 140 is attached to the inner side of the end plate portion 118-1. The holding portion 140 has a rectangular opening 141. A hook sliding portion 286 indicated by a broken line in FIGS. 21 and 22 is inserted into the opening 141. The process of attaching the light source unit 200 to the instrument body 100 will be described below with reference to FIG. 17.

(Fig. 17(a))
(A) is a state before the light source unit 200 is attached to the main body 110.

(Fig. 17(b))
First, the operator presses the insertion portion 280 side of the light source unit 200 in the longitudinal direction X against the holding portion 140 side of the instrument body 100 in the longitudinal direction X, and inserts the insertion portion 280 into the opening 141 of the holding portion 140. To do. FIG. 23A is a sectional view schematically showing the relationship between the holding section 140 and the insertion section 280 when the insertion section 280 is inserted into the opening 141 of the holding section 140. The insertion part 280 and the light source cover part 240-1 are not shown in cross section. In the insertion portion 280, the hook sliding portion 286 rides on the edge 142 of the opening 141 and is elastically deformed in the F1 direction of FIG. 23A, and the hook sliding portion 286 presses the edge 142. The dimension A is the vertical dimension from the lower surface 118-1-1 of the end plate 118-1 to the edge 142 (see FIG. 18).

Next, the operator hooks the front end locking portion 133a of the second mounting spring 130-2 at the substantially center on the edge 252a of the opening 252 of the second connector 250-2 at the substantially center of the light source unit 200. This allows the light source unit 200 to be temporarily fixed to the instrument body 100. When the temporary fixing state is set, the angle θ is opened as shown in FIG. 17B. Therefore, the work space shown by the broken line 313 that connects the connector 122 and the connector 222 can be obtained, and the workability is improved.

(Fig. 17(c))
Next, the worker attaches the third attachment spring 130-3 of the instrument body 100 to the third connector 250-3 and pushes up the light source unit 200 to the instrument body 100.

(Fig. 17(d))
As a result, the light source unit 200 rotates about the holding portion 140 and is attached to the instrument body 100. That is, the worker rotates the light source unit 200 with the insertion portion 280 in the state of FIG. 23A inserted into the opening 141 as the center of rotation, and the light source unit 200 is attached to the instrument body 100. The state of (d) is obtained. FIG. 23B is a cross-sectional view showing the relationship between the holding section 140 and the insertion section 280 in FIG. 17D. In FIG. 23(b), the upper surface 240-1-1 of the light source cover 240-1 is in contact with the bottom surface 118-1-1 of the end plate 118-1, and the hook sliding portion 286 is in the F2 direction. It is elastically deformed and presses the edge 142 in the opposite F direction.

As described above, according to the fourth embodiment, the lighting device 1004 includes the holding portion 140 and the insertion portion 280. Therefore, when the elongated light source unit 200 is attached to the fixture main body 100, the first attaching spring 130-1. Need not be attached to the first connector 250-1, and the insertion part 280 may be inserted into the opening 141 of the holding part 140. Therefore, the effect that the worker does not need to move toward the first mounting spring 130-1 is obtained.

In addition, in the lighting device 1004, since the two attachment springs 130 push the corresponding connecting members 250 in the insertion direction 289, there is an effect that the insertion portion 280 does not easily come off the opening 141.

In the fourth embodiment, it is assumed that one power supply device 220 is arranged in the light source unit 200 as in the first embodiment. However, one power supply device 220 may be arranged in the instrument body 100.

Although the first to fourth embodiments of the present invention have been described above, two or more of these embodiments may be combined and implemented. Alternatively, one of these embodiments may be partially implemented. Alternatively, two or more of these embodiments may be partially combined and implemented. The present invention is not limited to these embodiments, and various modifications can be made if necessary.

X longitudinal direction, Y lateral direction, D standing direction, E lateral direction, F, G direction, C central axis, 100 instrument body, 110 body portion, 111 recessed portion, 111-3 flat plate portion, 111-1 first instrument Main body side wall part, 111-1a, 111-2a inner surface, 111-2 Second instrument main body side wall part, 112-1, 112-2 inclined part, 113 Movement restriction part, 113-1 First movement restriction part, 113a -1 1st upward movement regulation part, 113b-1 1st lateral movement regulation part, 113-2 2nd movement regulation part, 113a-2 2nd upward movement regulation part, 113b-2 2nd Lateral movement restricting part, 114-1 first latch part, 114-2 second latch part, 118-1, 118-2 end plate part, 120 power supply wire mounting part, 121 power supply terminal block, 122 connector, 123 electric wire, 130 mounting spring, 130-1 first mounting spring, 130-2 second mounting spring, 130-3 third mounting spring, 131 fixing part, 132 engaging part, 133 circular arc part, 133a tip part Stop portion, 135 beam portion, 138 direction, 139 spring longitudinal direction, 140 holding portion, 141 opening, 142 edge, 200 light source unit, 201 first light source unit side wall portion, 201L portion below end portion 201U in the upward direction , 201U upper end, 202 second light source unit side wall, 202L lower part than upper end 202U, 202U upper end, 210 mounting part, 210c mounting side fixing part, 210d screw, 210L Notch, 210R Notch, 210-1 First Mounting Side Wall Part, 210-1a First Curl Part, 210-2 Second Mounting Side Wall Part, 210-2a Second Curl Part, 210-3 Light Source Attachment part, 210-3-1 Pair of first cut-and-raised parts, 210-3-2 Cut-and-raised part, 210-3a One surface, 210-3b Other surface, 215 region, 220 Power supply device, 220-1 1st power supply device, 220-2 2nd power supply device, 222 connector, 223 electric wire, 230 LED module, 230-1 1st LED module, 230-2 2nd LED module, 231 LED, 231-1 LED , 231-2 LED, 232 substrate, 240 translucent cover, 240- 1, 240-2 light source lid part, 240-1-1 upper surface, 241 cover body, 241-1, 241-2 edge, 242 cover side wall part, 242-1 first cover side wall part, 242-2 second Cover side wall part, 242-1a first hooking part, 242-2a second hooking part, 243 support part, 243-1 first support part, 243-2 second support part, 243-1a first Support convex part, 243-2a 2nd support convex part, 250 connection tool, 250-1 1st connection tool, 250-2, 2nd connection tool, 250-3 3rd connection tool, 251 fixed part, 252 opening, 252a edge, 253 rising part, 254 abutting part, 261 power terminal block, 262 connector, 263, 264, 265 electric wire, 280 inserting part, 281 attaching part, 281a bending part, 282 rising part, 283 supporting part 284 insertion end part, 285 front end connection part, 286 hooking sliding part, 289 insertion direction, 310, 311, 312 electric wire, 311L U shape, 311-1 connector, 312R U shape, 312-1 connector, 313 dashed line, 8230-1 first light source part, 8230-2 second light source part, 8133a bent part, 1001, 1002, 1003, 1004 lighting device.

Claims (10)

A light source unit having a longitudinal shape, the first light source unit side wall portion being a first side wall portion formed along the longitudinal direction of the longitudinal shape, and the light source unit formed along the longitudinal direction of the longitudinal shape. A light source unit having a second light source unit side wall portion that is a second side wall portion;
A long flat plate-shaped flat plate portion, a first instrument body side wall portion that is a first side wall portion that stands up from one edge along the longitudinal direction of the flat plate portion, and a long side direction of the flat plate portion. It is composed of a second instrument body side wall which is a second side wall standing up from the other edge, and the first light source unit side wall and the second light source unit side wall of the light source unit are housed. With an instrument body having a recess,
The first light source unit side wall is
Arranged to face an end of the first instrument body side wall portion in the standing direction of the first instrument body side wall portion,
The second light source unit side wall is
The second instrument body side wall portion is arranged so as to face an end portion of the second instrument body side wall portion in the standing direction of the second instrument body side wall portion,
The first instrument body side wall is
When the upright direction of the first instrument main body side wall portion is downward and the opposite direction to the first instrument main body side wall portion is upward, it is arranged above the first light source unit side wall portion. A first upward movement restricting portion having a first upward movement restricting portion for restricting upward movement of the first light source unit side wall portion,
The first movement restricting portion is formed by cutting and raising from a part of the first instrument body side wall portion ,
The first movement restriction unit is
When the lateral direction of the light source unit is the lateral direction, the lateral movement of the first light source unit side wall portion from the first instrument body side wall portion toward the second instrument body side wall portion is prevented. Having a first lateral movement restricting portion for restricting,
The first lateral movement restricting portion,
It has a plate shape facing the first instrument body side wall portion, and the cross-sectional shape with the longitudinal direction as the normal direction is a mountain shape in which the top faces toward the first instrument body side wall portion. In the lighting device, an end portion of the first instrument body side wall portion in the upright direction is bent . The first movement restricting portion has a first plate portion facing the flat plate portion,
The lighting device according to claim 1, wherein the first upward movement restricting portion is the first plate portion. The first light source unit side wall is
The lateral width of the upper end is larger than the lateral width of the portion below the upper end,
The first lateral movement restricting portion,
Look clamping the first light source unit side wall portion between said first instrument body sidewall portion, from the first light source unit side wall portion above the of the upper direction of the first light source unit side wall An inner surface that is formed to a position lower than an end and that faces the first instrument body side wall at a position lower than the upward end of the first light source unit side wall and the first instrument. lateral dimensions, the first light source unit side wall portion of the lighting device according to claim 1 or 2 less than the size of the lateral width of the upper direction of the end portion of the inner surface of the body sidewall portion. The second instrument body side wall is
A second upward movement restricting portion arranged above the second light source unit side wall portion, the second upward movement restricting portion restricting upward movement of the second light source unit side wall portion. A second movement restricting portion having a restricting portion,
The said 2nd movement control part is an illuminating device as described in any one of Claim 1 to 3 formed by cutting and raising from a part of said 2nd apparatus main body side wall part. The second movement restricting portion has a second plate portion facing the flat plate portion,
The lighting device according to claim 4 , wherein the second upward movement restricting portion is the second plate portion. The second movement restriction unit is
When the lateral direction of the light source unit is the lateral direction, the lateral movement of the second light source unit side wall portion from the second instrument body side wall portion toward the first instrument body side wall portion is prevented. have a second lateral movement restricting portion for restricting,
The second lateral movement restricting portion,
It has a plate shape facing the second instrument main body side wall portion, and the cross-sectional shape with the longitudinal direction as the normal direction is a mountain shape in which the top faces toward the second instrument main body side wall portion. The lighting device according to claim 4 or 5 , wherein an end portion in a standing direction of the second instrument body side wall portion is bent . The second light source unit side wall is
The lateral width of the upper end is larger than the lateral width of the portion below the upper end,
The second lateral movement restricting portion,
Look clamping the second light source unit side wall between the second instrument body sidewall portion from the second light source unit side wall portion above the of the upper direction of the second light source unit side wall The inner surface of the second light source unit side wall portion, which is formed to a position lower than the end portion, and which faces the second instrument body side wall portion at a position lower than the upward end portion of the second light source unit side wall portion, and the second instrument. The illuminating device according to claim 6 , wherein a dimension of the main body side wall portion in the lateral direction is smaller than a dimension of a lateral width of the upper end of the second light source unit side wall portion. A light source unit having a longitudinal shape, the first light source unit side wall portion being a first side wall portion formed along the longitudinal direction of the longitudinal shape, and the light source unit formed along the longitudinal direction of the longitudinal shape. A light source unit having a second light source unit side wall portion that is a second side wall portion;
A long flat plate-shaped flat plate portion, a first instrument body side wall portion that is a first side wall portion that stands up from one edge along the longitudinal direction of the flat plate portion, and a long side direction of the flat plate portion. It is composed of a second instrument body side wall which is a second side wall standing up from the other edge, and the first light source unit side wall and the second light source unit side wall of the light source unit are housed. With an instrument body having a recess,
The first light source unit side wall is
Arranged to face an end of the first instrument body side wall portion in the standing direction of the first instrument body side wall portion,
The second light source unit side wall is
The second instrument body side wall portion is arranged so as to face an end portion of the second instrument body side wall portion in the standing direction of the second instrument body side wall portion,
The first instrument body side wall is
When the standing direction of the first instrument body side wall portion is downward and the direction opposite to the erecting direction of the first instrument body side wall portion is upward, it is arranged above the first light source unit side wall portion. A first upward movement restricting portion having a first upward movement restricting portion that restricts upward movement of the first light source unit side wall portion,
The light source unit,
A translucent cover having a first cover side wall portion that is arranged to face the first instrument body side wall portion;
A mounting portion having a first mounting side wall portion that is arranged so as to face the first instrument body side wall portion,
The first light source unit side wall is
Possess a part of the first cover side wall portion, and said first attachment side wall portion,
The first movement restriction unit is
When the lateral direction of the light source unit is the lateral direction, the lateral movement of the first light source unit side wall portion from the first instrument body side wall portion toward the second instrument body side wall portion is prevented. Having a first lateral movement restricting portion for restricting,
The first lateral movement restricting portion,
It has a plate shape facing the first instrument body side wall portion, and the cross-sectional shape with the longitudinal direction as the normal direction is a mountain shape in which the top faces the first instrument body side wall portion. In the lighting device, the end of the first instrument body side wall in the upright direction is bent . The second instrument body side wall is
A second upward movement restricting portion arranged above the second light source unit side wall portion, the second upward movement restricting portion restricting upward movement of the second light source unit side wall portion. A second movement restricting portion having a restricting portion,
The translucent cover is
A second cover side wall portion arranged to face the second instrument body side wall portion,
The mounting portion is
A second mounting side wall portion arranged to face the second instrument body side wall portion,
The second light source unit side wall is
The lighting device according to claim 8 , further comprising a part of the second cover side wall portion and the second mounting side wall portion. The second movement restriction unit is
When the lateral direction of the light source unit is the lateral direction, the lateral movement of the second light source unit side wall portion from the second instrument body side wall portion toward the first instrument body side wall portion is prevented. Has a second lateral movement restricting portion for restricting,
The second lateral movement restricting portion,
It has a plate shape facing the second instrument main body side wall portion, and the cross-sectional shape with the longitudinal direction as the normal direction is a mountain shape in which the top faces toward the second instrument main body side wall portion. The lighting device according to claim 9 , wherein an end portion of the second instrument body side wall portion in the upright direction is bent .

Images